Time resolved dynamics of subpicosecond laser ablation

7 June 1993

journal article
Published by AIP Publishing in Applied Physics Letters

Vol. 62 (23) , 3049-3051
https://doi.org/10.1063/1.109135

Abstract

The ablation of lithium niobate (LiNbO₃), poly(tetrafluoroethylene) (PTFE, teflon), poly(methylmethacrylate) (PMMA) and polyimide (PI) by 500 fs UV excimer laser pulses at 248 nm is reported. Time‐resolved measurements were carried out with pulse pairs of variable delay in the range from −200 to +200 ps. The ablation rate is very sensitive to the time delay between the two pulses, and —depending on the material and fluence—can increase or decrease for very short time delays. For LiNbO₃, efficient shielding is observed within a few picoseconds. For PTFE and PMMA, and the total fluence just above threshold, the ablation rate versus time delay shows an autocorrelation type behavior with a full width at half‐maximum below 400 fs, since two‐photon absorption dominates the ablation process. For polyimide, excited state absorption is found to decrease the ablation rate for delay times below 30 ps.

Keywords

This publication has 32 references indexed in Scilit:

Optimized operation of short-pulse KrF amplifiers by off-axis amplification
Optics Communications, 1992
Delayed ionization of $C_{60}$ and $C_{70}$
Physical Review Letters, 1991
Photofragmentation pathways of a PMMA model compound under UV excimer laser ablation conditions
The Journal of Physical Chemistry, 1990
The significance of a fluence threshold for ultraviolet laser ablation and etching of polymers
Journal of Applied Physics, 1990
Picosecond UV Excimer Laser Ablation of LiNbO₃
MRS Proceedings, 1990
Influence of pulse width on ultraviolet laser ablation of poly(methyl methacrylate)
Applied Physics Letters, 1988
Simplified laser system for the generation of 60 fs pulses at 248 nm
Optics Communications, 1988
Desorption stimulated by laser-induced surface-plasmon excitation
Physical Review Letters, 1988
Fundamentals of Picosecond and Femtosecond Laser Solid Interactions
MRS Proceedings, 1986
Theory of etching of polymers by far-ultraviolet high-intensity pulsed laser- and long-term irradiation
The Journal of Physical Chemistry, 1984